Literature DB >> 27044413

Retrotransposon-associated long non-coding RNAs in mice and men.

Sravya Ganesh1, Petr Svoboda2.   

Abstract

Over a half of mammalian genomes is occupied by repetitive elements whose ability to provide functional sequences, move into new locations, and recombine underlies the so-called genome plasticity. At the same time, mobile elements exemplify selfish DNA, which is expanding in the genome at the expense of the host. The selfish generosity of mobile genetic elements is in the center of research interest as it offers insights into mechanisms underlying evolution and emergence of new genes. In terms of numbers, with over 20,000 in count, protein-coding genes make an outstanding >2 % minority. This number is exceeded by an ever-growing list of genes producing long non-coding RNAs (lncRNAs), which do not encode for proteins. LncRNAs are a dynamically evolving population of genes. While it is not yet clear what fraction of lncRNAs represents functionally important ones, their features imply that many lncRNAs emerge at random as new non-functional elements whose functionality is acquired through natural selection. Here, we explore the intersection of worlds of mobile genetic elements (particularly retrotransposons) and lncRNAs. In addition to summarizing essential features of mobile elements and lncRNAs, we focus on how retrotransposons contribute to lncRNA evolution, structure, and function in mammals.

Entities:  

Keywords:  LINE; LTR; MaLR; Retrotransposon; SINE; lncRNA

Mesh:

Substances:

Year:  2016        PMID: 27044413     DOI: 10.1007/s00424-016-1818-5

Source DB:  PubMed          Journal:  Pflugers Arch        ISSN: 0031-6768            Impact factor:   3.657


  91 in total

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Review 2.  Molecular mechanisms of long noncoding RNAs.

Authors:  Kevin C Wang; Howard Y Chang
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Journal:  Mol Cell Biol       Date:  2001-02       Impact factor: 4.272

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Authors:  Katrin Panzitt; Marisa M O Tschernatsch; Christian Guelly; Tarek Moustafa; Martin Stradner; Heimo M Strohmaier; Charles R Buck; Helmut Denk; Renée Schroeder; Michael Trauner; Kurt Zatloukal
Journal:  Gastroenterology       Date:  2006-08-14       Impact factor: 22.682

5.  Oxidative modifications and down-regulation of ubiquitin carboxyl-terminal hydrolase L1 associated with idiopathic Parkinson's and Alzheimer's diseases.

Authors:  Joungil Choi; Allan I Levey; Susan T Weintraub; Howard D Rees; Marla Gearing; Lih-Shen Chin; Lian Li
Journal:  J Biol Chem       Date:  2004-01-13       Impact factor: 5.157

6.  Genome of the marsupial Monodelphis domestica reveals innovation in non-coding sequences.

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Journal:  Nature       Date:  2007-05-10       Impact factor: 49.962

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Journal:  Science       Date:  2005-09-02       Impact factor: 47.728

8.  Characterization of the structure, function, and mechanism of B2 RNA, an ncRNA repressor of RNA polymerase II transcription.

Authors:  Celso A Espinoza; James A Goodrich; Jennifer F Kugel
Journal:  RNA       Date:  2007-02-16       Impact factor: 4.942

9.  The Kcnq1ot1 long non-coding RNA affects chromatin conformation and expression of Kcnq1, but does not regulate its imprinting in the developing heart.

Authors:  Lisa Korostowski; Natalie Sedlak; Nora Engel
Journal:  PLoS Genet       Date:  2012-09-20       Impact factor: 5.917

10.  An update on LNCipedia: a database for annotated human lncRNA sequences.

Authors:  Pieter-Jan Volders; Kenneth Verheggen; Gerben Menschaert; Klaas Vandepoele; Lennart Martens; Jo Vandesompele; Pieter Mestdagh
Journal:  Nucleic Acids Res       Date:  2014-11-05       Impact factor: 16.971
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  8 in total

Review 1.  Transcription of highly repetitive tandemly organized DNA in amphibians and birds: A historical overview and modern concepts.

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Journal:  RNA Biol       Date:  2016-10-20       Impact factor: 4.652

2.  A functional requirement for sex-determination M/m locus region lncRNA genes in Aedes aegypti female larvae.

Authors:  Keshava Mysore; Limb K Hapairai; Ping Li; Joseph B Roethele; Longhua Sun; Jessica Igiede; Joi K Misenti; Molly Duman-Scheel
Journal:  Sci Rep       Date:  2021-05-20       Impact factor: 4.379

3.  Retrotransposons evolution and impact on lncRNA and protein coding genes in pigs.

Authors:  Cai Chen; Wei Wang; Xiaoyan Wang; Dan Shen; Saisai Wang; Yali Wang; Bo Gao; Klaus Wimmers; Jiude Mao; Kui Li; Chengyi Song
Journal:  Mob DNA       Date:  2019-05-06

4.  Long noncoding RNAs: p53's secret weapon in the fight against cancer?

Authors:  Emily Dangelmaier; Sarah B Lazar; Ashish Lal
Journal:  PLoS Biol       Date:  2019-02-13       Impact factor: 8.029

Review 5.  Deciphering the Mounting Complexity of the p53 Regulatory Network in Correlation to Long Non-Coding RNAs (lncRNAs) in Ovarian Cancer.

Authors:  Sonali Pal; Manoj Garg; Amit Kumar Pandey
Journal:  Cells       Date:  2020-02-25       Impact factor: 6.600

6.  Retroelement-Linked H3K4me1 Histone Tags Uncover Regulatory Evolution Trends of Gene Enhancers and Feature Quickly Evolving Molecular Processes in Human Physiology.

Authors:  Daniil Nikitin; Nikita Kolosov; Anastasiia Murzina; Karina Pats; Anton Zamyatin; Victor Tkachev; Maxim Sorokin; Philippe Kopylov; Anton Buzdin
Journal:  Cells       Date:  2019-10-08       Impact factor: 6.600

Review 7.  What impact does oocyte vitrification have on epigenetics and gene expression?

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Journal:  Clin Epigenetics       Date:  2020-08-10       Impact factor: 6.551

8.  The most abundant maternal lncRNA Sirena1 acts post-transcriptionally and impacts mitochondrial distribution.

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Journal:  Nucleic Acids Res       Date:  2020-04-06       Impact factor: 16.971
  8 in total

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